TY - JOUR
T1 - Imprints and DPPA3 are bypassed during pluripotency- and differentiation-coupled methylation reprogramming in testicular germ cell tumors
AU - Killian, J Keith
AU - Dorssers, Lambert C J
AU - Trabert, Britton
AU - Gillis, Ad J M
AU - Cook, Michael B
AU - Wang, Yonghong
AU - Waterfall, Joshua J
AU - Stevenson, Holly
AU - Smith, William I
AU - Noyes, Natalia
AU - Retnakumar, Parvathy
AU - Stoop, J Hans
AU - Oosterhuis, J Wolter
AU - Meltzer, Paul S
AU - McGlynn, Katherine A
AU - Looijenga, Leendert H J
N1 - © 2016 Killian et al.; Published by Cold Spring Harbor Laboratory Press.
PY - 2016/11
Y1 - 2016/11
N2 - Testicular germ cell tumors (TGCTs) share germline ancestry but diverge phenotypically and clinically as seminoma (SE) and nonseminoma (NSE), the latter including the pluripotent embryonal carcinoma (EC) and its differentiated derivatives, teratoma (TE), yolk sac tumor (YST), and choriocarcinoma. Epigenomes from TGCTs may illuminate reprogramming in both normal development and testicular tumorigenesis. Herein we investigate pure-histological forms of 130 TGCTs for conserved and subtype-specific DNA methylation, including analysis of relatedness to pluripotent stem cell (ESC, iPSC), primordial germ cell (PGC), and differentiated somatic references. Most generally, TGCTs conserve PGC-lineage erasure of maternal and paternal genomic imprints and DPPA3 (also known as STELLA); however, like ESCs, TGCTs show focal recurrent imprinted domain hypermethylation. In this setting of shared physiologic erasure, NSEs harbor a malignancy-associated hypermethylation core, akin to that of a diverse cancer compendium. Beyond these concordances, we found subtype epigenetic homology with pluripotent versus differentiated states. ECs demonstrate a striking convergence of both CpG and CpH (non-CpG) methylation with pluripotent states; the pluripotential methyl-CpH signature crosses species boundaries and is distinct from neuronal methyl-CpH. EC differentiation to TE and YST entails reprogramming toward the somatic state, with loss of methyl-CpH but de novo methylation of pluripotency loci such as NANOG Extreme methyl-depletion among SE reflects the PGC methylation nadir. Adjacent to TGCTs, benign testis methylation profiles are determined by spermatogenetic proficiency measured by Johnsen score. In sum, TGCTs share collective entrapment in a PGC-like state of genomic-imprint and DPPA3 erasure, recurrent hypermethylation of cancer-associated targets, and subtype-dependent pluripotent, germline, or somatic methylation.
AB - Testicular germ cell tumors (TGCTs) share germline ancestry but diverge phenotypically and clinically as seminoma (SE) and nonseminoma (NSE), the latter including the pluripotent embryonal carcinoma (EC) and its differentiated derivatives, teratoma (TE), yolk sac tumor (YST), and choriocarcinoma. Epigenomes from TGCTs may illuminate reprogramming in both normal development and testicular tumorigenesis. Herein we investigate pure-histological forms of 130 TGCTs for conserved and subtype-specific DNA methylation, including analysis of relatedness to pluripotent stem cell (ESC, iPSC), primordial germ cell (PGC), and differentiated somatic references. Most generally, TGCTs conserve PGC-lineage erasure of maternal and paternal genomic imprints and DPPA3 (also known as STELLA); however, like ESCs, TGCTs show focal recurrent imprinted domain hypermethylation. In this setting of shared physiologic erasure, NSEs harbor a malignancy-associated hypermethylation core, akin to that of a diverse cancer compendium. Beyond these concordances, we found subtype epigenetic homology with pluripotent versus differentiated states. ECs demonstrate a striking convergence of both CpG and CpH (non-CpG) methylation with pluripotent states; the pluripotential methyl-CpH signature crosses species boundaries and is distinct from neuronal methyl-CpH. EC differentiation to TE and YST entails reprogramming toward the somatic state, with loss of methyl-CpH but de novo methylation of pluripotency loci such as NANOG Extreme methyl-depletion among SE reflects the PGC methylation nadir. Adjacent to TGCTs, benign testis methylation profiles are determined by spermatogenetic proficiency measured by Johnsen score. In sum, TGCTs share collective entrapment in a PGC-like state of genomic-imprint and DPPA3 erasure, recurrent hypermethylation of cancer-associated targets, and subtype-dependent pluripotent, germline, or somatic methylation.
KW - Cell Lineage
KW - Cellular Reprogramming
KW - Chromosomal Proteins, Non-Histone
KW - CpG Islands
KW - DNA Methylation
KW - Gene Expression Regulation, Neoplastic
KW - Genomic Imprinting
KW - Humans
KW - Male
KW - Nanog Homeobox Protein/genetics
KW - Neoplasms, Germ Cell and Embryonal/genetics
KW - Pluripotent Stem Cells/cytology
KW - Proteins/genetics
KW - Testicular Neoplasms/genetics
UR - http://www.scopus.com/inward/record.url?scp=84995570349&partnerID=8YFLogxK
U2 - 10.1101/gr.201293.115
DO - 10.1101/gr.201293.115
M3 - Article
C2 - 27803193
SN - 1088-9051
VL - 26
SP - 1490
EP - 1504
JO - Genome research
JF - Genome research
IS - 11
ER -